Still broken. Added a showdown

10 years ago · 0271092195
--- a/run-tests.py
+++ b/run-tests.py
@@ -5,12 +5,32 @@ import numpy as np
 import lib
 import time

 dimension=2
 def perm_ryser(a):
    ''' the permanent calculated using the ryser formula. much faster than the naive approach '''
    n,n2=a.shape
    z=np.arange(n)
    irange=xrange(2**n)
    get_index=lambda i: (i & (1 << z)) != 0 
    get_term=lambda index: ((-1)**np.sum(index))*np.prod(np.sum(a[index,:], 0))
    indeces=map(get_index, irange)
    terms=map(get_term, indeces) 
    return np.sum(terms)*((-1)**n)

 dimension=8
 real=np.ones((dimension, dimension))
 imag=np.ones((dimension, dimension))*0
 submatrix=real+1j*imag
 submatrix[0,0]*=2
 print submatrix

 p=lib.permanent(submatrix)
 print p
 t=time.clock()
 for i in range(10000):
    lib.permanent(submatrix)
 print time.clock()-t

 #t=time.clock()
 #for i in range(4000):
    #perm_ryser(submatrix)
 #print time.clock()-t


--- a/src/permanent.c
+++ b/src/permanent.c
@@ -12,7 +12,12 @@
 // Complex numbers
 static const npy_complex128 complex_one = {.real=1, .imag=0};
 static const npy_complex128 complex_zero = {.real=0, .imag=0};
 static void complex_inc(npy_complex128 a, npy_complex128 b) { a.real+=b.real; a.imag+=b.imag;}
 static npy_complex128 complex_add(npy_complex128 a, npy_complex128 b) { 
    npy_complex128 x;
    x.real = a.real+b.real;
    x.imag = a.imag+b.imag;
    return x;
 }
 static npy_complex128 complex_prod(npy_complex128 a, npy_complex128 b) { 
    npy_complex128 x;
    x.real = a.real*b.real+a.imag*b.imag;
@@ -31,6 +36,7 @@ PyMODINIT_FUNC initpermanent(void) {                            // Module initia
  import_array();
 }


 // Ryser's algorithm 
 static npy_complex128 perm_ryser(PyArrayObject *submatrix) {
    int n = (int) PyArray_DIM(submatrix, 0);
@@ -39,27 +45,23 @@ static npy_complex128 perm_ryser(PyArrayObject *submatrix) {
    npy_complex128 perm = complex_zero;
    npy_complex128 sum = complex_zero;
    int exp = 1 << n; 
    printf("2^%d = %d\n", n, exp);

    // Iterate over exponentially many index strings
    for (i=0; i<exp; ++i) {
        prod = complex_one;
        printf("prod %.3f %.3f \n", prod.real, prod.imag);
        for (y=0; y<n; ++y) {               // Rows
            sum = complex_zero;
            for (z=0; z<n; ++z) {           // Columns
                printf("element %.3f %.3f \n", SM(z,y).real, SM(z,y).imag);
                // Below is a suspicious line
                if ((i & (1 << z)) > 0) { complex_inc(sum, SM(z,y)); }
                printf("sum %.3f %.3f \n", sum.real, sum.imag);
                if ((i & (1 << z)) > 0) { 
                    sum = complex_add(sum, SM(z,y)); 
                }
            }
            prod = complex_prod(prod, sum);
        }
        printf("prod %.3f %.3f \n", prod.real, prod.imag);
        if (i%2 == 0) {prod.real*=-1; prod.imag*=-1;}
        complex_inc(perm, prod);
        /*if (i%2 == 0) {prod.real*=-1; prod.imag*=-1;}*/
        perm = complex_add(perm, prod);
    }
    if (i%2 == 0) {perm.real*=-1; perm.imag*=-1;}
    /*if (i%2 == 0) {perm.real*=-1; perm.imag*=-1;}*/
    return perm;
 }